Mechanism of formaldehyde and formic acid formation on (101)-TiO2@Cu-4 systems through CO2 hydrogenation

Theoretical Study of the Mechanism for CO2 Hydrogenation to Methanol Catalyzed by trans-RuH2(CO)(dpa)

Jinxia Zhou

June 2018

In this work, the reaction mechanism for the conversion of CO2 and H2 to methanol has been researche...

Efficient Synthesis of Ethanol from CH4 and Syngas on a Cu-Co/TiO2 Catalyst Using a Stepwise Reactor

Zuo, Zhi-Jun
Peng, Fen
Huang, Wei

October 2016

Ethanol synthesis from CH4 and syngas on a Cu-Co/TiO2 catalyst is studied using experiments, density...

Hydrogenation of Formate Species Using Atomic Hydrogen on a Cu(111) Model Catalyst

Takeyasu, K.
Sawaki, Y.
Imabayashi, T.
Putra, S.
Halim, H.
Quan, J.
Hamamoto, Y.
Hamada, I.
Morikawa, Y.
Kondo, T.
Fujitani, T.
Nakamura, J.

June 2022

The reaction mechanism of the CH3OH synthesis by the hydrogenation of CO2 on Cu catalysts is unclear...

Mechanism of formaldehyde and formic acid formation on (101)-TiO2@Cu-4 systems through CO2 hydrogenation

Singh, Deobrat
Gupta, Sanjeev K.
Seriani, Nicola
Lukacevic, Igor
Sonvane, Yogesh
Gajjar, P. N.
Ahuja, Rajeev

January 2021

The decoration of a copper cluster on the anatase phase of a (101)-TiO2 surface to increase the redu...

Mechanism of CO₂ conversion to methanol over Cu(110) and Cu(100) surfaces

Higham, MD
Quesne, MG
Catlow, CRA

July 2020

Density functional methods are applied to explore the reaction mechanism for CO₂ hydrogenation to me...

CO2 hydrogenation to methanol over Cd4/TiO2 catalyst: Insight into multifunctional interface

Li, G. (author)
Meeprasert, J. (author)
Wang, J. (author)
Li, C. (author)
Pidko, E.A. (author)

January 2022

Supported metal catalysts have shown to be efficient for CO 2 conversion due to their multifunctiona...

Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: A DFT approach

Mishra, AK
de Leeuw, NH

September 2016

Periodic, self-consistent, density functional theory calculations with corrections via a Hubbard U p...

Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: A DFT approach

Mishra, Abhishek Kumar
de Leeuw, Nora H.

September 2016

AbstractPeriodic, self-consistent, density functional theory calculations with corrections via a Hub...

Mechanism of CO2 Photocatalytic Reduction to Methane and Methanol on Defected Anatase TiO2 (101): A Density Functional Theory Study

Ji-Yuan Liu (5628098)
Xue-Qing Gong (1303053)
Anastassia N. Alexandrova (130171)

January 2019

With rising emission of CO2 affecting human life, photocatalytic reduction of CO2 attracts substanti...

Theoretical Study of Direct Carbon Dioxide Conversion to Formic Acid on Transition Metal-doped Subnanometer Palladium Clusters

Adhitya Gandaryus Saputro
Arifin Luthfi Maulana
Fine Dwinita Aprilyanti
Hermawan Kresno Dipojono

August 2021

We studied the direct conversion of CO2 to HCOOH through hydrogenation reaction without the presence...

Mechanism of CO 2 Photocatalytic Reduction to Methane and Methanol on Defected Anatase TiO 2 (101): A Density Functional Theory Study

Liu, JY
Gong, XQ
Alexandrova, AN

February 2019

With rising emission of CO 2 affecting human life, photocatalytic reduction of CO 2 attracts substan...

Production of Formic Acid via Hydrogenation of CO2 over a Copper-Alkoxide-Functionalized MOF: A Mechanistic Study

Thana Maihom (1297185)
Sippakorn Wannakao (1918627)
Bundet Boekfa (1745713)
Jumras Limtrakul (1297176)

August 2013

Conversion of greenhouse gases to more valuable chemicals is important from both the environmental a...

Enhancement of formic acid production from carbon dioxide hydrogenation using metal-organic frameworks:Monte Carlo simulation study

Wasik, Dominika O.
Martín-Calvo, Ana
Gutiérrez-Sevillano, Juan José
Dubbeldam, David
Vlugt, Thijs J.H.
Calero, Sofía

July 2023

Formic acid production from CO2 allows the reduction of carbon dioxide emissions while synthesizing ...

Enhancement of formic acid production from carbon dioxide hydrogenation using metal-organic frameworks: Monte Carlo simulation study

Wasik, Dominika O. (author)
Martín-Calvo, Ana (author)
Gutiérrez-Sevillano, Juan José (author)
Dubbeldam, David (author)
Vlugt, T.J.H. (author)
Calero, Sofía (author)

January 2023

Formic acid production from CO2 allows the reduction of carbon dioxide emissions while synthesizing ...

(Photo)Electrocatalytic CO2 Reduction at the Defective Anatase TiO2 (101) Surface

Liu, JY
Gong, XQ
Li, R
Shi, H
Cronin, SB
Alexandrova, AN

April 2020

Excessive carbon dioxide (CO2) emissions by combustion of fossil fuels are linked to global warming ...

Theoretical Study of the Mechanism for CO2 Hydrogenation to Methanol Catalyzed by trans-RuH2(CO)(dpa)

Jinxia Zhou

June 2018

In this work, the reaction mechanism for the conversion of CO2 and H2 to methanol has been researche...

Efficient Synthesis of Ethanol from CH4 and Syngas on a Cu-Co/TiO2 Catalyst Using a Stepwise Reactor

Zuo, Zhi-Jun
Peng, Fen
Huang, Wei

October 2016

Ethanol synthesis from CH4 and syngas on a Cu-Co/TiO2 catalyst is studied using experiments, density...

Hydrogenation of Formate Species Using Atomic Hydrogen on a Cu(111) Model Catalyst

Takeyasu, K.
Sawaki, Y.
Imabayashi, T.
Putra, S.
Halim, H.
Quan, J.
Hamamoto, Y.
Hamada, I.
Morikawa, Y.
Kondo, T.
Fujitani, T.
Nakamura, J.

June 2022

The reaction mechanism of the CH3OH synthesis by the hydrogenation of CO2 on Cu catalysts is unclear...

Mechanism of formaldehyde and formic acid formation on (101)-TiO2@Cu-4 systems through CO2 hydrogenation

Singh, Deobrat
Gupta, Sanjeev K.
Seriani, Nicola
Lukacevic, Igor
Sonvane, Yogesh
Gajjar, P. N.
Ahuja, Rajeev

January 2021

The decoration of a copper cluster on the anatase phase of a (101)-TiO2 surface to increase the redu...

Mechanism of CO₂ conversion to methanol over Cu(110) and Cu(100) surfaces

Higham, MD
Quesne, MG
Catlow, CRA

July 2020

Density functional methods are applied to explore the reaction mechanism for CO₂ hydrogenation to me...

CO2 hydrogenation to methanol over Cd4/TiO2 catalyst: Insight into multifunctional interface

Li, G. (author)
Meeprasert, J. (author)
Wang, J. (author)
Li, C. (author)
Pidko, E.A. (author)

January 2022

Supported metal catalysts have shown to be efficient for CO 2 conversion due to their multifunctiona...

Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: A DFT approach

Mishra, AK
de Leeuw, NH

September 2016

Periodic, self-consistent, density functional theory calculations with corrections via a Hubbard U p...

Mechanistic insights into the Cu(I) oxide-catalyzed conversion of CO2 to fuels and chemicals: A DFT approach

Mishra, Abhishek Kumar
de Leeuw, Nora H.

September 2016

AbstractPeriodic, self-consistent, density functional theory calculations with corrections via a Hub...

Mechanism of CO2 Photocatalytic Reduction to Methane and Methanol on Defected Anatase TiO2 (101): A Density Functional Theory Study

Ji-Yuan Liu (5628098)
Xue-Qing Gong (1303053)
Anastassia N. Alexandrova (130171)

January 2019

With rising emission of CO2 affecting human life, photocatalytic reduction of CO2 attracts substanti...

Theoretical Study of Direct Carbon Dioxide Conversion to Formic Acid on Transition Metal-doped Subnanometer Palladium Clusters

Adhitya Gandaryus Saputro
Arifin Luthfi Maulana
Fine Dwinita Aprilyanti
Hermawan Kresno Dipojono

August 2021

We studied the direct conversion of CO2 to HCOOH through hydrogenation reaction without the presence...

Mechanism of CO 2 Photocatalytic Reduction to Methane and Methanol on Defected Anatase TiO 2 (101): A Density Functional Theory Study

Liu, JY
Gong, XQ
Alexandrova, AN

February 2019

With rising emission of CO 2 affecting human life, photocatalytic reduction of CO 2 attracts substan...

Production of Formic Acid via Hydrogenation of CO2 over a Copper-Alkoxide-Functionalized MOF: A Mechanistic Study

Thana Maihom (1297185)
Sippakorn Wannakao (1918627)
Bundet Boekfa (1745713)
Jumras Limtrakul (1297176)

August 2013

Conversion of greenhouse gases to more valuable chemicals is important from both the environmental a...

Enhancement of formic acid production from carbon dioxide hydrogenation using metal-organic frameworks:Monte Carlo simulation study

Wasik, Dominika O.
Martín-Calvo, Ana
Gutiérrez-Sevillano, Juan José
Dubbeldam, David
Vlugt, Thijs J.H.
Calero, Sofía

July 2023

Formic acid production from CO2 allows the reduction of carbon dioxide emissions while synthesizing ...

Enhancement of formic acid production from carbon dioxide hydrogenation using metal-organic frameworks: Monte Carlo simulation study

Wasik, Dominika O. (author)
Martín-Calvo, Ana (author)
Gutiérrez-Sevillano, Juan José (author)
Dubbeldam, David (author)
Vlugt, T.J.H. (author)
Calero, Sofía (author)

January 2023

Formic acid production from CO2 allows the reduction of carbon dioxide emissions while synthesizing ...

(Photo)Electrocatalytic CO2 Reduction at the Defective Anatase TiO2 (101) Surface

Liu, JY
Gong, XQ
Li, R
Shi, H
Cronin, SB
Alexandrova, AN

April 2020

Excessive carbon dioxide (CO2) emissions by combustion of fossil fuels are linked to global warming ...

Theoretical Study of the Mechanism for CO2 Hydrogenation to Methanol Catalyzed by trans-RuH2(CO)(dpa)

Jinxia Zhou

June 2018

In this work, the reaction mechanism for the conversion of CO2 and H2 to methanol has been researche...

Efficient Synthesis of Ethanol from CH4 and Syngas on a Cu-Co/TiO2 Catalyst Using a Stepwise Reactor

Zuo, Zhi-Jun
Peng, Fen
Huang, Wei

October 2016

Ethanol synthesis from CH4 and syngas on a Cu-Co/TiO2 catalyst is studied using experiments, density...

Hydrogenation of Formate Species Using Atomic Hydrogen on a Cu(111) Model Catalyst

Takeyasu, K.
Sawaki, Y.
Imabayashi, T.
Putra, S.
Halim, H.
Quan, J.
Hamamoto, Y.
Hamada, I.
Morikawa, Y.
Kondo, T.
Fujitani, T.
Nakamura, J.

June 2022

The reaction mechanism of the CH3OH synthesis by the hydrogenation of CO2 on Cu catalysts is unclear...

Mechanism of formaldehyde and formic acid formation on (101)-TiO2@Cu-4 systems through CO2 hydrogenation

Abstract

Extracted data

Mechanism of formaldehyde and formic acid formation on (101)-TiO2@Cu-4 systems through CO2 hydrogenation

Abstract

Extracted data

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